Interactive and customizable flight planning tool

ABSTRACT

A flight planning system is disclosed for providing an interactive and customizable flight planning tool. The flight planning system may include a memory device for storing flight information and one or more hardware processors. The processors may receive, according to a user device application programming interface (API) and based on input to a first user interface, first information identifying one or more flight plan parameters for a flight route; receive, according to a third-party API, second information affecting the one or more flight plan parameters; generate flight route data based on the first information and the second information; and provide the generated flight route data to a second user interface.

PRIORITY CLAIM

This application is a continuation of U.S. application Ser. No.16/545,049, filed on Aug. 20, 2019, currently pending, which is acontinuation of U.S. application Ser. No. 14/929,211, filed on Oct. 30,2015, which issued as U.S. Pat. No. 10,431,100 on Oct. 1, 2019, whichclaims priority under 35 U.S.C. § 119 to U.S. Provisional ApplicationNo. 62/107,071, filed on Jan. 23, 2015, U.S. Provisional Application No.62/137,327, filed on Mar. 24, 2015, and U.S. Provisional Application No.62/073,425, filed on Oct. 31, 2014, each of which is expresslyincorporated herein by reference in its entirety.

TECHNICAL FIELD

The disclosed embodiments generally relate to a flight planning tool,and more particularly, an interactive and customizable flight planningtool that provides a comprehensive tool for general aviation pilots toplan and execute a flight.

BACKGROUND

Modern flight planning has continued to evolve from early individualweb-based applications that separately supplied a general aviation pilotwith flight information, such as weather, aircraft performanceinformation, airport directories, and fundamental route planning to moreall-in-one-solutions. For example, mobile, in-cockpit Electronic FlightBags (EFBs) provide some information relevant to a flight, such asreal-time weather and traffic information via wireless access to remotedevices. But while current systems like EFBs may provide mobile accessto some available information, there is a need for a single, customizedsource for all critical and pertinent information necessary for a pilotto plan and execute a flight.

Further, since current systems do not provide all necessary informationin a single location, there is a lack of customization abilities thatwould allow a pilot to consider particular information that may bepertinent to a particular flight. Therefore, there is also a need for auser-friendly interface that allows a user to customize the informationthat is used to plan a flight.

SUMMARY

The disclosed embodiments include a device or devices that areconfigured to provide an interactive and customizable flight planningtool, as well as computer-implemented methods performed by the device ordevices.

In one aspect, the present disclosure is directed to a flight planningsystem for providing a flight planning tool that may comprise a memorydevice for storing flight information and one or more hardwareprocessors configured to: receive a flight plan, access a calendar ofevents, determine events corresponding to dates associated with theflight plan, and provide a notification of the events on an interactiveuser interface.

In one aspect, the present disclosure is directed to a customizable andinteractive flight planning tool. The flight planning tool may include aflight planning system for providing a flight planning tool. The flightplanning system may include a memory device for storing flightinformation and one or more hardware processors. The one or morehardware processors may be configured to receive, from a client deviceassociated with the flight planning system, a first flight informationrequest and provide, in response to the first flight informationrequest, an interactive user interface, on the client device, having agraphical representation of flight information, including at least aflight route. The one or more hardware processors may also be configuredto provide a plurality of selectable overlays that modify the appearanceof the graphical representation when selected, wherein the plurality ofoverlays display additional information related to the flightinformation. The one or more hardware processors may also be configuredto receive a second request, from the client device, related to theflight information and provide, in response to the second request, amodified user interface, on the client device, comprising at least afeature related to the second request and the flight information.

In another aspect, the present disclosure is directed to a method ofplanning a flight. The method may include receiving, from a clientdevice, a first flight information request and providing, in response tothe first flight information request, an interactive user interface, onthe client device, having a graphical representation of flightinformation, including at least a flight route. The method may furtherinclude providing a plurality of selectable overlays that modify theappearance of the graphical representation when selected, wherein theplurality of overlays display additional information related to theflight information. The method may further include receiving a secondrequest, from the client device, related to the flight information andproviding, in response to the second request, a modified user interface,on the client device, comprising at least a feature related to thesecond request and the flight information.

It is to be understood that both the foregoing general description andthe following detailed description are exemplary and explanatory onlyand are not restrictive of the disclosed embodiments, as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of this specification, illustrate disclosed embodiments and,together with the description, serve to explain the disclosedembodiments. In the drawings:

FIG. 1 is a block diagram of an exemplary system consistent withdisclosed embodiments;

FIG. 2 is a block diagram of an exemplary server, consistent withdisclosed embodiments;

FIG. 3 is a block diagram of another exemplary system, consistent withdisclosed embodiments;

FIG. 4 is a flowchart of an exemplary flight planning process,consistent with disclosed embodiments; and

FIG. 5 is an illustration an of exemplary user interface that may bedisplayed as part of a flight planning tool.

FIG. 6 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 7 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 8 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 9 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 10 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 11 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 12 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 13 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

FIG. 14 is an illustration of another exemplary user interface that maybe displayed as part of a flight planning tool.

DETAILED DESCRIPTION

Reference will now be made in detail to the disclosed embodiments,examples of which are illustrated in the accompanying drawings. Whereverconvenient, the same reference numbers will be used throughout thedrawings to refer to the same or like parts.

Disclosed embodiments pertain to a flight planning tool, which may be orbe provided by a computing system and which may be accessed through thesame or another computing system. The flight planning tool may include avariety of features that allow a user (e.g., a pilot) to plan a flight(e.g., a general aviation flight), including routing and mapping theflight in an interactive and customizable manner. In addition, theflight planning tool may include integration with local and third-partyservices and information, such as weather, airport information, routingtools, map information, community information, flight plan filings,navigation logs, and the like. The flight planning system may beaccessed through a user interface that provides the flight planning toolin a user-friendly manner while allowing for many levels ofcustomization and complex interaction.

FIG. 1 is a diagram illustrating an exemplary system 100 for performingone or more operations consistent with the disclosed embodiments. In oneembodiment, system 100 may include a flight planning system 110, aclient device 120, a third-party device 130, and a network 140. Thecomponents and arrangement of the components included in the system 100may vary. Thus, the system 100 may further include other components thatperform or assist in the performance of one or more processes consistentwith the disclosed embodiments.

Flight planning system 110 may include one or more computing systemsthat are configured to execute software instructions stored on one ormore memory devices to perform one or more operations consistent withthe disclosed embodiments. Flight planning system 110 may include one ormore of a server, a computer, an embedded system, or a dedicatedhardware device. In certain embodiments, flight planning system 110 maybe configured as a particular apparatus, system, and the like based onthe storage, execution, and/or implementation of the softwareinstructions that perform one or more operations consistent with thedisclosed embodiments.

In an exemplary embodiment, flight planning system 110 may includehardware and/or software components configured to create, store, andtransmit a variety of flight planning tools. For example, flightplanning system 110 may include hardware devices configured to gatherinformation that may be useful to a pilot or individual associated withaviation. For instance, flight planning system 110 may include (or beconfigured to communicate with) devices that include weather data,airport data, aircraft data, pilot data, etc. Flight planning system 110may collect this information and perform one or more processes to makeit available to a user. For example, flight planning system 110 may beconfigured to provide the information to client device 120 and/or thirdparty device 130.

Flight planning system 110 may provide the information via one or moreflight planning tools, which may include a website and a mobileapplication, for example. Flight planning system 110 may be furtherconfigured to maintain information that is current, includinginformation received through a provided flight planning tool. Flightplanning system 110 may be configured to provide information receivedfrom one flight planning tool to another flight planning tool such thatthe flight planning tools are synchronized. Flight planning system 110may be further configured to share information, such as flight routes,waypoints, temporary flight restrictions, and the like, between userssuch that a community of flight planning information is created.

Client device 120 may be one or more computing systems that areconfigured to execute software instructions for performing one or moreoperations consistent with the disclosed embodiments. In someembodiments, client device 120 may be one or more of a mobile device(e.g., a tablet, smartphone, etc.), a laptop, a desktop computer, aserver, an embedded system, a dedicated hardware device, etc. Clientdevice 120 may include one or more processors configured to executesoftware instructions stored in memory, such as memory included inclient device 120. Client device 120 may include software that, whenexecuted by a processor, performs known network-related communicationand content display processes. For instance, client device 120 mayexecute browser software that generates and displays interface screensincluding content on interface hardware (e.g., a display device)included in, or connected to, client device 120.

In one embodiment, client device 120 may be a laptop or desktop computerconfigured to communicate with flight planning system 110 (e.g., vianetwork 140). Client device 120 may be configured to execute softwareinstructions to display an online flight planner generated by flightplanning system 110. In one embodiment, the online flight planner may bea web-based application (e.g., website, applications, widget, etc.)through which client device 120 may provide information to a user (e.g.,information collected by flight planning system 110) and requestinformation from flight planning system 110 (e.g., generation of aflight plan).

In another embodiment, client device 120 may be a tablet or smartphoneconfigured to store and/or execute one or more mobile applications(“apps”). For example, client device 120 may be configured to run aflight planning app, which may make flight planning system 110accessible to a user (e.g., receive requests based on user input,display information received from flight planning system 10, etc.).

Third-party device 130 may be one or more computing systems associatedwith a third-party. Third-party device 130 may include one or morecomputing systems that are configured to execute software instructionsfor performing one or more operations consistent with the disclosedembodiments. For example, third-party device 130 may be a server,computer, laptop, mobile device (e.g., tablet, smartphone, etc.), anembedded system, a dedicated hardware device, etc. While one third-partydevice 130 is shown in FIG. 1 , it should be understood that system 100may include a plurality of third-party devices 130, each associated withthe same or different third-parties.

In one aspect, third-party device 130 may be associated with athird-party that determines, collects, and/or stores information relatedto aviation. For example, third-party device 130 may be associated witha weather forecaster, an aircraft manufacturer, an airport, an aircraft,an aviation regulatory entity (e.g., FAA and the like), etc. In thisway, flight planning system 110 may receive information throughcommunication with a selected third-party device 130.

In another aspect, third-party device 130 may be associated with athird-party that provides information to a user through client device120. For example, third-party device 130 may be associated with anentity that provides an aviation tool (e.g., a mobile app) that may beaccessed by client device 120. In another example, third-party device130 may be a flight planning engine that provides some aspect of aflight plan, such as calculating a flight route based on providedinformation (e.g., origination, destination, altitude, departure time,etc.). In yet another example, third-party device 130 may be unrelatedto aviation, such as a social media platform. In some embodiments,flight planning system 110 may communicate with third-party device 130to integrate information and resources to enhance the flight planningtools provided by the third-party.

In yet another aspect, one or more of flight planning system 110 andclient device 120 may provide information to third-party device 130. Forexample, third-party device 130 may integrate flight planning dataand/or services into a third-party system and/or service. For example,third-party device 130 may be a schedule organizer and may receiveflight plan and other information to update a calendar. The calendar mayinclude events associated with, for example, airports (e.g., scheduledclosures, social events, fuel deliveries, etc.), aircrafts (e.g.,scheduled maintenance, recurring flights, etc.), and/or associatedpersonnel. In one aspect, the calendar may also include information thatmay be used to plan a full trip, such as hotel reservations, localattractions, entertainment, points of interest, and/or otherinformation. Such information may be displayed on a calendar in a userinterface, and the information may be displayed in coordination withreceived flight plant information (e.g., current location, destinationlocation, current/future date and time, etc.). Other content from otherthird-party sources may be included, as desired.

In another example, third-party device 130 may be a social mediaplatform configured to receive information from flight planning system110 and/or client device 120, such as flight plans, pictures, schedules,locations, events, etc. Certain information may be automatically orconditionally submit the second request to the flight planning entityvia the flight planning system based on the user inputs. (e.g., based ona user permission or preference, based on a category of information,etc.) sent to social media platforms, such as calendar events, noticesof flight arrivals and/or departures (e.g., including time, date,location, etc.), flight plan details, and/or other information.

Network 140 may be any type of network configured to providecommunications between components of system 100. For example, network140 may be any type of network (including infrastructure) that providescommunications, exchanges information, and/or facilitates the exchangeof information, such as the Internet, a Local Area Network, Near FieldCommunication (NFC), WIFI, Bluetooth®, or other suitable connection(s)that enables the sending and receiving of information between thecomponents of system 100. In other embodiments, one or more componentsof system 100 may communicate directly through a dedicated communicationlink(s) (not shown), such as a link between flight planning system 110and client device 120.

FIG. 2 shows an exemplary server 211 for implementing embodimentsconsistent with the present disclosure. In an exemplary embodiment,server 211 may correspond to flight planning system 110. It should beunderstood, however, that variations of server 211 may correspond toclient device 120, third-party device 130, and/or components thereof.

In one embodiment, server 211 may include one or more processors 221,one or more memories 223, and one or more input/output (I/O) devices222. According to some embodiments, server 211 may be an embedded systemor similar computing device(s) that generate, maintain, and provide website(s) and/or mobile applications consistent with disclosedembodiments. Server 211 may be standalone, or it may be part of asubsystem, which may be part of a larger system. For example, server 211may represent distributed servers that are remotely located andcommunicate over a network (e.g., network 140) or a dedicated network,such as a LAN.

Processor 221 may include one or more known processing devices, such asa microprocessor from the Pentium™ or Xeon™ family manufactured byIntel™, the Turion™ family manufactured by AMD™ or any of variousprocessors manufactured by Sun Microsystems. The disclosed embodimentsare not limited to any type of processor(s) configured in server 211.

Memory 223 may include one or more storage devices configured to storeinstructions used by processor 221 to perform functions related todisclosed embodiments. For example, memory 223 may be configured withone or more software instructions, such as program(s) 224 that mayperform one or more operations when executed by processor 221. Thedisclosed embodiments are not limited to separate programs or computersconfigured to perform dedicated tasks. For example, memory 223 mayinclude a single program 224 that performs the functions of the server211, or program 224 could comprise multiple programs. Additionally,processor 221 may execute one or more programs located remotely fromserver 211. For example, flight planning system 110, client device 120,and/or third-party device 130, may, via server 211, access one or moreremote programs that, when executed, perform functions related tocertain disclosed embodiments. Memory 223 may also store data 225 thatmay reflect any type of information in any format that the system mayuse to perform operations consistent with the disclosed embodiments.

I/O devices 222 may be one or more devices configured to allow data tobe received and/or transmitted by server 211. I/O devices 222 mayinclude one or more digital and/or analog communication devices thatallow server 211 to communicate with other machines and devices, such asother components of system 100.

Server 211 may also be communicatively connected to one or moredatabase(s) 226. Server 211 may be communicatively connected todatabase(s) 226 through network 140. Database 226 may include one ormore memory devices that store information and are accessed and/ormanaged through server 211. By way of example, database(s) 226 mayinclude MS SQL™, Oracle™ databases, Sybase™ databases, or otherrelational databases or non-relational databases, such as Hadoopsequence files, HBase™, or Cassandra™. The databases or other files mayinclude, for example, data and information related to the source anddestination of a network request, the data contained in the request,etc. Systems and methods of disclosed embodiments, however, are notlimited to separate databases. In one aspect, system 200 may includedatabase 226. Alternatively, database 226 may be located remotely fromthe system 200. Database 226 may include computing components (e.g.,database management system, database server, etc.) configured to receiveand process requests for data stored in memory devices of database(s)226 and to provide data from database 226.

FIG. 3 is a diagram illustrating an exemplary configuration of thecomponents of system 100, including various additional components andfeatures thereof. It should be understood that the configuration ofsystem 100 depicted in FIG. 3 is exemplary, and that otherconfigurations, including additional and/or alternative components andfeatures are possible.

In an exemplary embodiment, flight planning system 110 may includefeatures configured to generate a flight plan and/or provide the flightplan and/or aviation-related information to client device 120. Forexample, flight planning system 110 may include a plurality of modules315 and a flight plan Application Program Interface (API) 318. Modules315 may serve as data sources, configured to collect and storeinformation, as well as to generate and store additional informationand/or customized tools. Flight plan API 318 may be an exemplaryinterface through which flight planning system 110 may communicate withclient device 120 and third-party device 130. While flight plan API 318is depicted and described as one interface, it should be understood thatflight plan API 318 my include a plurality of interfaces, such as aninternal flight plan API for communicating with client device 120 (e.g.,through a website or mobile application associated with flight planningsystem 110) and an external flight plan API for communicating withclient device 120 (e.g., through a third-party website or mobileapplication) and/or third-party device 130.

As shown in FIG. 3 , client device 120 may include or embody one or moreof a plurality of client devices 325. Client devices 325 may includedevices operated by users. The users may operate client devices 325 tocause client devices 325 to communicate with flight planning system 110via flight plan API 318 and/or third-party device 130 (e.g., throughnetwork 140). Client devices 325 may receive information from flightplanning system 110 and/or third-party device 130 and display it withassociated interface hardware. Further client devices 325 may beconfigured to receive user input, and provide the user input informationto flight planning system 110 and/or third-party device 130, such as tocause those devices to provide certain information back to clientdevices 325.

Third-party device 130 may be connected to network 140 such thatthird-party device 130 may communicate with flight plan API 318 and/orclient devices 325. As shown in FIG. 3 , third-party device 130 mayinclude a plurality of third-party devices 130, which each may beassociated with a different third-party entity, as described above.

In an exemplary embodiment, modules 315 may include at least a flightplanning module 332, a weather module 334, and an airport and supportdata module 336. For the purposes of this disclosure, “modules” (alsoknown as “engines”) may be implemented in software, hardware, firmware,a mix of any of those, or the like. For example, if the disclosed“modules” are implemented in software, they may be stored in a memoryassociated with flight planning system 110. Processors, I/O devices, andmemory devices may be utilized to perform processes to implement andfacilitate operations of modules 315. Thus, modules 315 may include codeinstructions executable by one or more processors, alone or in variouscombinations with other modules disclosed in this or other embodiments.For example, flight planning module 332 may be configured to interactwith weather module 334, and/or other modules of flight planning system110, shown or not shown in FIG. 3 , to perform functions consistent withdisclosed embodiments. In other embodiments, if the disclosed “modules”are implemented in hardware, they may comprise an embedded system orother dedicated hardware configured by machine code, assembly code, orthe like to interact with other modules of flight planning system 110 toperform functions consistent with disclosed embodiments.

Flight planning module 332 may be configured to generate a flight plan.For example, flight planning module 332 may be configured to executesoftware instructions to determine a route for a potential aviationflight. Flight planning module 332 may communicate with other modules315 to collect information that may be used to calculate a flight route.Flight planning module 332 may also communicate with third-party devices130 (e.g., via flight plan API 318) to collect information. For example,flight planning module 332 may communicate with a third-party flightplanning engine that may calculate a flight route based on providedinformation. Flight planning module 332 may provide a generated flightplan to client device 120 for display and use by a user.

In some embodiments, flight planning module 332 may include variousfeatures configured to provide an interactive flight plan. For example,flight planning module 332 may include a flight planning engine, arouting engine, and a graphics engine. The routing engine may determinea route for the flight and the graphics engine may generate interactivecharts and weather displays. The flight planning engine may combine theroute and graphics to generate an interactive flight plan for a user.

Weather module 334 may be configured to track and store informationrelated to weather that may affect aviation, such as by providing accessto a collection of real-time, forecasted and predictive weatherproducts. For example, weather module 334 may generate forecasts andpredictions based on collected weather data or may receive completedforecasts and predictions. Weather module 334 may receive data and/orforecasts from third-party devices 130 (e.g., via flight plan API 318).For example, weather module 334 may access a weather forecast systemsuch as Aircraft Owners and Pilots Association (AOPA) Weather orthird-party providers. Weather module 334 may be configured to provideweather information to flight planning module 332 for use in generatinga flight plan.

Airport and support data module 336 may be an additional module ormodules configured to collect, generate, and/or store additionalinformation that may be pertinent to aviation, such as information thatmay be used by flight planning module 332 to create a flight plan. Forexample, airport and support data module 336 may provide informationrelated to airports, aircrafts, airlines, pilots, social media, news,aviation entities (e.g., FAA, AOPA, etc.), and the like. Airport andsupport data module 336 may connect to third-party devices 130associated with this information (e.g., via flight plan API 318) togather and store information that may be used by flight planning module332 and/or provided to client device 120 and/or a third-party device130.

Exemplary features of airport and support data module 336 may includeflight planning resources such as an airport directory (e.g., throughaccess to a full AOPA airports directory), weight and balanceinformation, temporary flight restrictions, user-generated content,pilot and aircraft logbooks, manuals and instructions, calendars, etc.Further, while depicted and described with respect to airport andsupport data module 336, it should be understood that other componentsof flight planning system 110 may operate in addition to, alternativeto, and/or in combination with airport and support data module 336 toprovide these features.

In addition to modules 315, flight planning system 110 may include or beconnected to at least one database 340. Database 340 may containrelevant pilot, aircraft, and/or flight planning information that may beused by one or more components of system 100, such as flight planningmodule 332. One or more of modules 315 and/or flight plan API 318 may beconfigured to retrieve information from database 340 for modules 315,client devices 325, and/or third-party devices 130. In an exemplaryembodiment, database 340 may be an SQL database, but is not limitedthereto.

In an exemplary embodiment, database 340 may be a user databaseconfigured to receive, store, and provide information associated with acommunity of aviation pilots and other users. For example, user database340 may store user profiles associated with users of client devices 325.Each user profile may include information associated with the user, suchas user login information, pilot information, aircraft information,saved flight routes, navigation logs, pictures, etc. In this way, userdatabase 340 may serve as a repository for pertinent and non-pertinentinformation associated with flight planning. Information stored in userdatabase 340 may be provided to client devices 325 through flight planAPI 318.

Client devices 325 may include any client computing device configured tocommunicate with flight planning system 110 and/or a third party device130. In an exemplary embodiment, client devices 325 may include onlineflight planner devices 352, mobile application devices 354, andthird-party application devices 356. It should be understood that theserepresentations of client devices 325 are made for convenience ofdiscussion, and that they may overlap (i.e., a mobile application device354 and a third-party application device 356 may be the same device).

Online flight planner devices 352 may be client devices 325 that areconfigured to communicate with flight planning system 110 to provide aweb-based flight planning tool to a user. For example, online flightplanner devices 352 may be laptop, desktop computer, notebook, tablet,smartphone, smartwatch, etc. configured to access a website (or otherweb-based application) provided by flight planning system 110. Thewebsite may provide access to a comprehensive flight planning toolprovided by flight planning system 110.

Mobile application devices 354 may be client devices 325 that areconfigured to execute a mobile flight planning application. The mobileflight planning application may be a similar tool to the websiteaccessible by online flight planner devices 352; however, it may becustomized for use by a mobile device, including software that may bestored by mobile application devices 354. The mobile flight planningapplication may also provide access to a comprehensive flight planningtool provided by flight planning system 110.

Third-party application devices 356 may be client devices 325 that aresimilar to online-flight planner devices 352 and/or mobile applicationdevices 354. For example, third-party application devices 356 may haveweb access and/or be configured to execute a mobile application.Regardless, third-party application device 356 may differ in that theyconnect to a third-party device 130 for receiving information through awebsite or mobile application. For example, third-party applicationdevices 356 may include client devices 325 that store and execute asocial media platform provided by a third-party device 130. In anexemplary embodiment, flight planning system 110 may be configured tocommunicate with the associated third-party device 130 such that flightplanning information may be combined with the third-party application toprovide an integrated service to a user through a third-partyapplication device 356.

FIG. 4 is a flowchart of an exemplary flight planning process 400 bywhich flight planning system 110 may provide a flight planning tool to auser. In one embodiment, flight planning system 110 may executeinstructions stored in memory to perform process 400. It should beunderstood, however, that one or more client devices 325 and third-partydevices 130 may execute instructions to perform one or more steps ofprocess 400.

In step 410, flight planning system 110 may collect and storeinformation. For example, flight planning system 110 may storeinformation in database 340 or any of modules 315, such as userprofiles, aircraft information, airport information, pilot information,and the like. Flight planning system 110 may also store informationassociated with flight routes that have already been created, eitherusing a flight planning tool provided by flight planning system 110 orthrough other means and provided to flight planning system 110 as aflight route. Flight planning system 110 may also communicate with oneor more client devices 325 and/or third-party devices 130 in order toreceive information, such as weather information or other informationcapable of affecting flight parameters.

In step 420, flight planning system 110 may provide a user interface. Inone example, flight planning system 110 may provide data to clientdevice 120 for generation and display of the user interface. The userinterface may provide information that is stored by flight planningsystem 110 and provided according to a particular stage of a flightplanning process. For example, the user interface may include selectableoptions for planning a flight. The user interface may include visualrepresentations of tools used to plan a flight, such as a graphicalrepresentation of an area (e.g., map, chart, and the like), arepresentation of a flight route on the graphical representation,various overlays for displaying various aspects in relation to thegraphical representation (e.g., weather conditions, airport locations,waypoints, etc.), and the like. In some embodiments, the user interfacemay include a login interface that includes a prompt for a user to loginto a flight planning tool provided by flight planning system 110.

In one embodiment, client device 120 may receive the user interface datafrom flight planning system 110 and display the user interface usinginterface hardware (e.g., a display screen). For example, client device120 may be a computing device with access to network 140 (e.g., theInternet) and may provide a user interface in the form of a websitethrough a web browser. In another example, client device 120 may be acomputing device configured to run a mobile application that providesthe user interface received from flight planning system 110. In anotherexample, flight planning system 110 may include a computing device thatincludes interface hardware configured to display a user interface.

In some embodiments, flight planning system 110 (and/or client device120) may provide an interactive user interface. For example, flightplanning system 110 may provide a user interface that includes agraphical representation (e.g., map or chart), where the user interfaceis configured to allow a user to interact with the graphicalrepresentation by panning, zooming, etc., and/or by including customfeatures that pertain to a graphical representation such as VisualFlight Rules (VFR), Instrument Flight Rules (IFR), VFR/IFR hybridfeatures, various selectable map overlays, terrain maps,three-dimensional maps, etc.

In step 430, flight planning system 110 may receive input. For example,flight planning system 110 may receive input related to the userinterface provided in step 420. In one embodiment, a user may enterinformation to client device 120, which client device 120 may send toflight planning system 110 as input. In another embodiment, a user mayenter information directly to flight planning system 110, which flightplanning system 110 may interpret as input.

Flight planning system 110 may receive input related to flight planning.For example, flight planning system 110 may receive information thatidentifies parameters of a flight route that is being planned by a user.Flight planning system 110 may also receive input related to otheraspects of a flight planning tool. For example, flight planning systemmay receive input related to an ongoing flight (e.g., flight data),identifying information (e.g., identifying a pilot and/or an aircraft),input related to temporary flight restrictions, etc.

In step 440, flight planning system 110 may perform an action based onreceived input. For example, flight planning system 110 may executeinstructions to perform a process to create a flight route based onparameters provided by a user. In another example, flight planningsystem 110 may retrieve stored information that is requested. Forinstance, flight planning system 110 may retrieve information related toa stored flight route, a user profile, airports, weather conditions,etc. In another example, flight planning system 110 may perform anaction to communicate with another device, such as third-party device130. For instance, flight planning system 110 may communicate with athird-party flight routing engine (e.g., a device that calculates aflight route based on provided parameters), a third-party weather system(e.g., to receive real-time weather information), a flight planningentity device (e.g., to file a flight plan with a flight planningentity, such as the FAA), a social media device, etc. In someembodiments, flight planning system 110 may store received input, e.g.,in database 340, in step 440.

In step 450, flight planning system 110 may provide a response (e.g., toclient device 120). For example, flight planning system 110 may providerequested information, such as a stored flight route in response to arequest for a saved flight route. In another example, flight planningsystem 110 may provide information received from a third-party device130, such as a calculated flight route, real-time weather information,confirmation of a flight filing, social media information, etc.

Flight planning system 110 may provide a response in the form of amodified user interface. The modified user interface may includedisplayed information or a feature that was not previously displayed.For example, flight planning system 110 may provide data to clientdevice 120 for plotting a calculated flight route on a map, depictingweather on a map, displaying requested information (e.g., pictures,temporary flight restrictions, flight log information, etc.), and thelike. In some embodiments, flight planning system 110 may providetemporary flight restriction (TFR) notifications and other notices toairmen (NOTAM) based on user-provided information and/or a calculatedflight route (e.g., notification of a TFR that caused the flight routeto take a certain path).

In one aspect, flight planning system 110 may be configured to generateNOTAMs based on flight planning information and/or in conjunction withuser-provided information. For example, flight planning system may beconfigured to generate NOTAMs based on a current location, futurelocation (e.g., based on logged flight plans), calendar events, futureflight plans, and/or other ascertainable parameters. Custom NOTAMs maybe generated based on user preferences that may be stored in connectionwith system 100 (e.g., in user database 340). For example, userpreferences may include certain information to receive notificationsabout, certain times to receive notifications, certain geographicregions in which to receive notifications, and/or other preferences.

NOTAMs may also or alternatively be generated and displayed to the userautomatically based on current and/or future submitted flight planinformation. For example, a database of open notifications may be kepton or in connection with system 100 as notifications are generated(e.g., by agencies, by users, by airports, etc.). When a user's currentor future flight plan parameters overlap parameters associated with anotice in the notification database, a NOTAM may be generated to notifythe user of the relevant information. In another aspect, users may beallowed to search the notification database (e.g., using keywordsearching, dropdown menus, chronologically, based on location, etc.)through flight planning system 110 or directly through a third-partysource, to search or brows for particular notices or types of notices.

In another aspect, NOTAMs may be generated in conjunction with a flightsafety calculator. For example, flight planning system may include or beconnectable to (e.g., via a third-party device) a computational programconfigured to determine a safety rating based on certain flight planinformation and other available information. In one aspect, the flightsafety calculator may be configured to receive current and futureweather information, ground condition information, user-providedinformation, and/or other information and generate a safety score basedon such inputs. For example, weather information may include indicia ofseverity, location, altitude, and timing of unfavorable weather, whichmay be compared to flight plan information, such as flight pathinformation, departure and arrival locations and timing, altitude,and/or other information. Based on the comparison, NOTAMs may begenerated (e.g., official or unofficial), and communicated to clientdevice 120 to alert the user of potential weather issues. The flightsafety calculator may also receive inputs from third-party sources, suchas FAA resources, the National Weather Service, other users, and/orother sources, which may be included as factors in the comparison andgeneration of NOTAMs.

Other features that may be provided as part of a response from flightplanning system 110 (e.g., modified user interface) may include flightroute wind optimization information, targeted advertising, items ofinterest along flight routes, fuel price optimized flight routing,customizable map and chart information, terrain maps, three-dimensionalmaps, side-view flight routes, and the like. Similarly, flight planningsystem 110 may provide a response to a third-party device 130, such asto post information to a social media platform, fill calendarinformation, etc.

Calendar information may be used to generate reminders. For example, areminder may be created regarding a scheduled event at a desired timeprior to the event. The reminder may be configured as a pushnotification or other type of visible reminder on client device 120. Inthis way, pertinent information may be brought to the user's attentionas the events become relevant based on time, location, and/or otherascertainable variables.

One or more components of system 100 may perform one or more of thesteps of 400 in order to provide a flight planning tool that includes acustomizable and interactive user interface that may be a convenientflight planning tool for a user. Flight planning system 100 may receive,store, and generate data that may be used (e.g., by client device 120)to produce user interfaces that provide information (e.g., informationrelated to flight planning). In addition, the components of system 100may operate in conjunction to provide a variety of options to a user insuch a way that renders the flight planning tool both comprehensive andeasy-to-use. An exemplary flight planning tool consistent with thedisclosed embodiments is illustrated in FIGS. 5-14 and further describedbelow.

FIG. 5 is an exemplary user interface 500 associated with a flightplanning tool provided by flight planning system 110. User interface500, as with the other user interfaces depicted and described herein,may include information that is visually represented by interfacehardware, such as interface hardware associated with flight planningsystem 110, client device 120, or third-party device 130.

User interface 500 depicts a map 510. Map 510 may include any of avariety of indicators, such as borders, geographical features,landmarks, distance markers, location identifiers, airports, etc., thatallow the map to accurately depict or otherwise correspond to aparticular region. It should be understood that map 510 may include anyrepresentation, such as any map or chart (e.g., represented graphicallyor textually) that identifies information related to an area withinwhich a flight may take place.

User interface 500 may further include a flight route 520. Flight route520 may be an estimation of a possible flight route that may be taken byan aircraft. For example, flight route 520 may include the path anaircraft may generally take in order to fly between two locationsrepresented on map 510. While only the path is shown in FIG. 5 , itshould be understood that other information may be generated andprovided in connection with flight route 520, such as speed, altitude,heading direction, and the like.

As shown in FIG. 5 , user interface 500 may include various tools 530that allow a user to interact with user interface 500 and perform one ormore actions to plan a flight, for example. For instance, tools 530 mayinclude map interaction features 532, selectable menu features 534,overlay features 536, and a search feature 538.

Map interaction features 532 may include selectable features that allowfor interaction with map 510 (and or features of map 510). For example,map interaction features 532 may include features that allow the user topan, zoom, scale, rotate, and/or flip the map 510. Map interactionfeatures 532 may also be integrated into map 510 to allow a user tomodify the displayed portion of the map by providing input (e.g.,clicking, double clicking, dragging, etc.). It should be understood thatmap interaction features 532 may include any features that allow a userto modify the displayed map 510 such that a desired area is shown.

Selectable menu features 534 may include features that allow a user tonavigate between user interfaces that provide one or more of a varietyof flight planning tools. For example, selectable menu features 534 mayinclude features that allow for the input of information associated witha new flight route, stored flight routes, filing of a flight route witha flight planning entity (e.g., the FAA), saving a current route,modifying a current route, map types, aviation alerts (e.g., temporaryflight restrictions), user profiles, pilots, aircrafts, customwaypoints, and/or links to third-party information (e.g., weather and/orairport databases).

FIG. 6 depicts an exemplary user interface 600 that may be displayedafter a selectable menu feature 534 related to creating a new flightroute is selected. User interface 600 includes prompts 610 for a user toprovide information related to a flight that the user is planning. Forexample, prompts 610 may include a departure location, destinationlocation, aircraft selection, altitude selection, routing typeselection, flight rule selection, and timing selection. The departureand destination selection may be selected from a list of airports, forexample, which may be narrowed by a filter (e.g., to public use airportsonly). The aircraft selection may include a list of saved aircraftprofiles (e.g., aircraft profiles previously input by a user and savedby flight planning system 110). The altitude, routing type, and flightrule selections may allow a user to specify criteria about the flight(e.g., the altitude at which the aircraft will generally fly, whetherthe flight is to be routed directly, through a low airway, or a highairway, and whether Visual Flight Rules (VFR) or Instrument Flight Rules(IFR) will be used). The time selection may allow a user to select atime at which the flight will take place (e.g., estimated departure).

Input information may be transmitted to a component of flight planningsystem 110 (e.g., flight planning module 332), which may use theinformation to generate a flight route. Alternatively, flight planningsystem 110 may communicate with a third-party device 130 to generate aflight route. Flight planning system 110 may provide the generatedflight route to interface hardware (e.g., interface hardware associatedwith client device 120) for display as part of a user interface (e.g.,user interface 500 with flight route 520).

FIG. 7 depicts an exemplary user interface 700 that may be displayedafter a selectable menu feature 534 related to retrieving a storedflight route is selected. For example, user interface 700 may includelocal routes 710 and community routes 720. Local routes 710 may includeroutes that were created by a current user and are stored in relation toan associated user profile. For example, a pilot may plan a plurality offlights over time, which each may be stored and available when thatpilot accesses flight planning system 110.

Community routes 720 may include one or more routes that may be beenplanned through input from another user (e.g., a user besides a currentuser of the flight planning tool) and are made available through flightplanning system 110. For example, a user-created flight route may bestored in database 340 and made available to certain users besides theuser that caused the flight route to be created. In this way, flightroutes may be shared between users.

A search feature 725 may be included to allow a user to search throughlocal routes 710 and/or shared community routes 720. For example, flightplanning system 110 may receive a search query as input through searchfeature 725. Flight planning system 110 may search database 340 formatching flight routes, and may provide results through user interface700.

In some embodiments, flight planning system 110 may provide a flightplanning tool that allows generated flight routes to be modified. Forexample, a user, through user interface 500, may modify flight route 520in a variety of manners. In one example, a user may provide input forcreation of a user-defined waypoint (depicted in FIG. 9 ), which flightplanning system 110 may use to re-route flight route 520 (e.g., throughthe user-defined waypoint). In one example, user interface 500 may beconfigured to receive an input from the user (e.g., via client device120) indicative of the user-defined waypoint. User interface 500 may beconfigured to receive coordinate information (e.g., latitudinal andlongitudinal coordinates) of the waypoint. In another example, userinterface 500 may be configured to receive a waypoint location selectionon a map of route 250 shown on user interface 500. For instance, userinterface 500 may be configured to allow the user to select, via anappropriate input device (e.g., a graphical pointer, touchscreen, etc.),a location on a map displayed on user interface 500 in order to add awaypoint to flight route 520 at the selected location. In anotherexample, the user may provide input (e.g., via a graphical pointer ortouchscreen interface) by dragging a portion of flight route 520 toanother location on the map so as to modify the path shown by flightroute 520 on the map (e.g., “rubber-banding”).

In some embodiments, flight planning system 110 may provide a flightplanning tool that allows for different representations of a flightroute and/or other information. For example, FIG. 8 depicts an exemplaryuser interface 800 that includes a route profile view that depicts, forexample, terrain, airspace, forecast winds, etc. along the flight pathin a side-view. The profile view may be a side perspective view. Thatis, the profile view may be a graphical representation configured toallow a user to visualize a route or a portion of a route in terms ofdistance, time, geographic position, altitude, or any combinationsthereof. User interface 800 may include, for example, a graphicalrepresentation of route information configured to allow the user tovisualize changes in the information with respect to time, distance,position, or another flight metric. Other options may include athree-dimensional visual representation of a flight route and/or avisual flight simulation.

Returning to FIG. 5 , overlay features 536 may include selectablefeatures that allow for customized information to be presented withrespect to map 510. For example, overlay features 536 may include a menuthat allows a user to select one or more categories of information thatmay be overlaid on map 510 such that a customized map 510 may bepresented. The overlay features 536 may be related to aviation andinclude, for example, categories associated with routing (e.g., lowairway markers, high airway markers, very high frequency omnidirectionalradio range (VOR) stations, non-directional beacons (NDBs), en routeairspace fixes, airspace fix labels, terminal airspace fixes,user-defined waypoints, etc.), airspace and obstacles (e.g., obstaclemarkers, obstacle labels, terminal airspace markers, special useairspace markers, special use airspace labels, bounds and boundaries,etc.), ground references (e.g., roads, railroads, urban areas,localizers, etc.), map components (borders, coastlines, latitude andlongitude coordinates and grid, etc.), weather (e.g., radar,precipitation, echo, lighting, winds, weather stations, etc.), andairports (e.g., airports along route, low-use airport markers, low-useairport labels, etc.). It should be understood that these overlayfeatures 536 are exemplary and may include additional or alternativecategories and/or options. For example, flight route 520 itself may bean overlay feature 536.

FIG. 9 depicts an exemplary user interface 900 that depicts some of theoptions associated with overlay features 536. For example, userinterface 900 may include map 910 which includes an airport locationsoverlay, which depicts airport markers with labels throughout map 910.An exemplary user-defined waypoint overlay feature 536 is also shown inFIG. 9 .

FIG. 10 depicts an exemplary user interface 1000 that includes a weatherconditions overlay. The weather conditions overlay may provide weatherinformation in a graphical manner. The weather overlay may include avariety of weather-related display options, and may include real-timecurrent weather, forecasted future weather, weather histories, and maybe represented textually and/or graphically.

Returning to FIG. 5 , search feature 538 may be a search bar that mayallow a user to enter an alphanumeric search query. Flight planningsystem 110 may receive the search query and provide a response. Thesearch feature 538 may allow a user to search for any informationassociated with the flight planning tool, such as a map location,weather information, route information, etc. In some embodiments, map510 may be interactive in other ways to provide search feature 538. Forexample, in some embodiments, user interface 500 may be interactive suchthat a user may select a portion of map 510 and flight planning system110 may return search results based on a location associated with theselection. For example, a user may provide input to select a portion ofthe map that corresponds to an airport.

FIG. 11 depicts an exemplary user interface 1100 that includes anexemplary search result associated with an airport. For example, a usermay search for the airport (e.g., by entering a search query orselecting the airport on map 510), which may cause flight planningsystem 110 to provide user interface 1100. As shown in FIG. 11 , userinterface 1100 may include a variety of information related to theselected airport, which the user may use in planning a flight, forexample.

Using the above-described exemplary features, flight planning system 110provides a flight planning tool for a user to plan an aviation flight,including a flight route for an aircraft to take. Flight planning system110 may provide additional features, such as features that allow a pilotto execute the planned flight.

FIGS. 12 and 13 depict exemplary user interfaces 1200 and 1300,respectively, which include flight planning features associated withexecuting a flight. For example, user interface 1200 may include aplurality of prompts 1210 configured to receive user inputs indicativeof information associated with a flight plan. In this way, informationreceived by prompts 1210 may be submitted to flight planning system 110via user interface 1200 to request a weather briefing for a future orcurrent flight. Prompts 1210 on user interface 1200 may provide spacefor users to input, for example, a requested brief type (e.g., for aroute, for an area, etc.), an aircraft identification, equipment type,departure and arrival information (e.g., location, date, time, etc.),types of additional weather notifications to receive, etc. Userinterface 1200 may also include a button or other user form configuredto submit the request to flight planning system 110 when selected. Inresponse to the submission, flight planning system may return a response(e.g., a weather brief) to client device 120.

In another example, user interface 1300 includes a plurality of prompts1310 configured to receive user inputs indicative of informationassociated with a flight plan and flight planning system 110. Inputsreceived by prompts 1310 may be transmitted to flight planning system110 and submitted to a flight planning agency (e.g., the FAA) togenerate a flight plan. Prompts 1310 may provide space for users toinput, for example, a desired flight rule selection (e.g., IFR or VFR),a type of aircraft and associated equipment, airspeed information, anamount of fuel onboard, pilot personal and contact information, a numberof people onboard, aircraft identifying information, and/or otherinformation. User interface 1300 may also include a button or other userform configured to submit the request to flight planning system 110 whenselected. In this way, a flight plan may move towards takeoff whiletaking into account proper protocol (e.g., briefings, filings, etc.)before doing so.

Flight planning system 110 may additionally or alternatively providefeatures similar to those described with respect to FIGS. 12 and 13 .For example, flight planning system 110 may provide recent briefings(e.g., a list of saved briefings for a client device 120 to access),recent flight plans (e.g., a list of saved flight plans that were filedwith a flight planning entity), and the like.

FIG. 14 depicts an exemplary user interface 1400, which includes anavigation log that may be generated by flight planning system 110. Forexample, flight planning system 110 may generate a navigation log thatcorresponds to a flight and populate the navigation log before, during,and/or after the flight. The navigation log may include departure anddestination information (e.g., location, date, time, etc.), waypointinformation (e.g., name, location, etc.), fuel information, weatherinformation, and or other information associate with the flight. Flightplanning system 110 may save the navigation log, which may also includedetailed information such as frequencies, heading, winds, etc. Flightplanning system 110 may also provide the navigation log in a convenientmanner, such as by allowing the navigation log to be presented and/orprinted in a kneeboard or full-page layout.

The exemplary disclosed embodiments provide a flight planning tool thatincludes a comprehensive, easy-to-use, and interactive set of userinterfaces that a flight planning system may provide to a user for usein planning an aviation flight. The user interfaces may provide crispand clear images that are generated at the request of a user and includea variety of customization features, including map interaction featuresand overlay features.

In addition, a disclosed flight planning system may include both storageof information and a capability to connect to other resources ofinformation. For example, the flight planning system may store communityinformation related to flights, thus allowing for sharing of informationbetween users and synchronization of data for the same user betweendifferent devices and programs. In addition, the flight planning systemmay connect to third-party systems to thus allow for a comprehensive andintegrated approach to flight planning, such as by providing interactiveaviation weather information in local, regional, and national scope asdesired by a user and/or filing a flight plan with a flight planningentity. These and other features allow for a user to efficiently andsafely plan and execute a flight.

Computer programs created on the basis of the written description andmethods of this specification are within the skill of a softwaredeveloper. The various programs or program modules can be created usinga variety of programming techniques. For example, program sections orprogram modules can be designed in or by means of Java, Objective C,C++, Java script, assembly language, or any such programming languages,including third-party libraries. One or more of such software sectionsor modules can be integrated into a computer system, computer-readablemedia, or existing communications software.

Moreover, while illustrative embodiments have been described herein, thescope includes any and all embodiments having equivalent elements,modifications, omissions, combinations (e.g., of aspects across variousembodiments), adaptations or alterations based on the presentdisclosure. The elements in the claims are to be interpreted broadlybased on the language employed in the claims and not limited to examplesdescribed in the present specification or during the prosecution of theapplication, which examples are to be construed as non-exclusive.Further, the steps of the disclosed methods can be modified in anymanner, including by reordering steps or inserting or deleting steps. Itis intended, therefore, that the specification and examples beconsidered as example only, with a true scope and spirit being indicatedby the following claims and their full scope of equivalents.

What is claimed is:
 1. A flight planning system comprising: a memorystoring instructions; and at least one processor configured to executethe instructions to perform operations comprising: receiving, accordingto a user device application programming interface (API) and based oninput to a first user interface, first information identifying one ormore flight plan parameters for a flight route; receiving, according toa third-party API, second information affecting the one or more flightplan parameters; generating flight route data based on the firstinformation and the second information; and providing the generatedflight route data to a second user interface.
 2. The flight planningsystem of claim 1, wherein the second user interface is a modified formof the first user interface.
 3. The flight planning system of claim 1,wherein the first user interface includes one or more selectable optionscorresponding to the one or more parameters.
 4. The flight planningsystem of claim 1, wherein the one or more parameters identify at leastone of a pilot or an aircraft.
 5. The flight planning system of claim 1,wherein the second user interface includes a plot of a flight route on amap based on the generated flight route data.
 6. The flight planningsystem of claim 1, the operations further comprising generating a Noticeto Airmen (NOTAM) based on the first information and the secondinformation.
 7. The flight planning system of claim 6, wherein the NOTAMis generated based on a user preference identifying a parameterassociated with the NOTAM.
 8. The flight planning system of claim 6,wherein the second user interface includes the NOTAM.
 9. The flightplanning system of claim 6, wherein the NOTAM is generated based on aflight safety calculation, the flight safety calculation based on flightsafety input from a third-party source and at least one of the one ormore flight plan parameters.
 10. The flight planning system of claim 1,wherein the second user interface includes at least one visual elementoverlaid onto the first user interface.
 11. The flight planning systemof claim 1, wherein: the second information includes at least oneoverlap parameter; the operations further comprise determining whetherthe at least one overlap parameter overlaps with at least one of the oneor more flight plan parameters; and the flight route data is generatedbased on the determining that the at least one overlap parameteroverlaps with the at least one flight plan parameter.
 12. The flightplanning system of claim 1, wherein the second user interface includesat least one of flight route wind optimization information, targetedadvertising, fuel price optimized flight routing, a terrain map, athree-dimensional map, or a side-view flight route.
 13. The flightplanning system of claim 1, wherein the first user interface includes alogin interface.
 14. The flight planning system of claim 1, wherein thefirst user interface is configured to allow a user to interact with thefirst user interface by panning, zooming, or including at least onecustomer feature, the at least one customer feature corresponding toVisual Flight Rules (VFR), Instrument Flight Rules (IFR), a VFR/IFRhybrid feature, a selectable map overlay, a terrain map, or athree-dimensional map.
 15. The flight planning system of claim 1,wherein at least one of the first information or the second informationincludes an input related to an ongoing flight.
 16. The flight planningsystem of claim 1, wherein at least one of the first user interface orthe second user interface includes at least one selectable feature that,when selected, causes display of an input interface.
 17. Anon-transitory computer-readable storage medium that stores instructionsthat, when executed by at least one processor, cause the at least oneprocessor to perform operations comprising: receiving, according to auser device application programming interface (API) and based on inputto a first user interface, first information identifying one or moreflight plan parameters for a flight route; receiving, according to athird-party API, second information affecting the one or more flightplan parameters; generating flight route data based on the firstinformation and the second information; and providing the generatedflight route data to a second user interface.
 18. The non-transitorycomputer-readable storage medium of claim 17, wherein the second userinterface includes at least one visual element overlaid onto the firstuser interface.
 19. The non-transitory computer-readable storage mediumof claim 17, wherein: the second information includes at least oneoverlap parameter; the operations further comprise determining whetherthe at least one overlap parameter overlaps with at least one of the oneor more flight plan parameters; and the flight route data is generatedbased on the determining that the at least one overlap parameteroverlaps with the at least one flight plan parameter.
 20. Thenon-transitory computer-readable storage medium of claim 17, wherein atleast one of the first user interface or the second user interfaceincludes at least one selectable feature that, when selected, causesdisplay of an input interface.